Partial Volume Correction in Multi-Modality Emission Tomography

1. A method for partial volume correction in an emission tomography system, the method comprising: simulating a partial volume effect based on a shape of an object in a patient; determining corrections by locations for the partial volume effect of the object in the patient, wherein determining the corrections comprises determining partial volume artifact by location for the object of the patient, the corrections comprising a gain counteracting the partial volume effect; detecting, by the emission tomography system, emissions from the object in the patient; reconstructing an activity distribution of the object from the detected emissions, the reconstructing being a function of the corrections; and generating an image of the activity distribution; obtaining computed tomography (CT) data representing a region of the patient and segmenting locations representing an organ based on the CT data, the locations comprising a zone, and the organ comprising the object.

2. The method of claim 1 wherein simulating comprises randomly sub-dividing a segmentation of the object, assigning a same test activity to each of the sub-divisions, and forward-projecting the test activities to an object space.

3. The method of claim 1 wherein determining the corrections comprises determining the corrections as ratios of an assigned activity to reconstructed activity from the simulating.

4. The method of claim 1 wherein reconstructing comprises multiplying activities by the corrections or correcting in image space.

5. The method of claim 1 wherein simulating comprises simulating based on the shape from the segmented locations.

6. The method of claim 2 wherein determining the corrections comprises determining, for each of the locations, the correction from a ratio of a reconstructed activity from simulation of the partial volume effect to the test activity.

7. The method of claim 5 wherein segmenting comprises segmenting based on the CT data and the detected emissions, the segmenting accounting for a boundary of the object from the CT data and a tumor in the object from the detected emissions, wherein the locations for the tumor are excluded from the locations used in the simulating.

8. The method of claim 5 wherein segmenting comprises generating a tissue-based zone map, and wherein reconstructing comprises reconstructing as a function of the tissue-based zone map and the corrections.

9. The method of claim 2 wherein sub-dividing comprises inscribing spheres filling the object.

10. The method of claim 2 wherein sub-dividing comprises randomly selecting locations and assigning volume shapes centered at the randomly selected locations with a maximum size that do not overlap other ones of the volume shapes and are within the object.

11. The method of claim 1 wherein reconstructing comprises multiplying the detected emissions by the corrections in forward projection of the reconstructing.

12. The method of claim 1 wherein reconstructing comprises correcting activity in image space with the corrections in each iteration of the reconstructing.

13. A method for partial volume correction in an emission tomography system, the method comprising: simulating a partial volume effect based on a shape of an object in a patient; determining corrections by locations for the partial volume effect of the object in the patient; detecting, by the emission tomography system, emissions from the object in the patient; reconstructing an activity distribution of the object from the detected emissions, the reconstructing being a function of the corrections; generating an image of the activity distribution; and obtaining computed tomography (CT) data representing a region of the patient and segmenting locations representing an organ based on the CT data, the locations comprising a zone, and the organ comprising the object; wherein simulating comprises simulating based on the shape from the segmented locations; and wherein segmenting comprises segmenting based on the CT data and the detected emissions, the segmenting accounting for a boundary of the object from the CT data and a tumor in the object from the detected emissions, wherein the locations for the tumor are excluded from the locations used in the simulating.

14. A method for partial volume correction in an emission tomography system, the method comprising: simulating a partial volume effect based on a shape of an object in a patient; determining corrections by locations for the partial volume effect of the object in the patient; detecting, by the emission tomography system, emissions from the object in the patient; reconstructing an activity distribution of the object from the detected emissions, the reconstructing being a function of the corrections; and generating an image of the activity distribution; wherein simulating comprises randomly sub-dividing a segmentation of the object, assigning a same test activity to each of the sub-divisions, and forward-projecting the test activities to an object space, and wherein sub-dividing comprises randomly selecting locations and assigning volume shapes centered at the randomly selected locations with a maximum size that do not overlap other ones of the volume shapes and are within the object.